Selective signaling device.



M. F. GEEK & R. C. LEAKE.

SELEC'I'IVE SIGNAUNG DEVICE}.

APPLICATION 111.210 r21; 11,1510.

Patented Nov. 24, 1914.

6 SHEETSSBBET l.

IVITNESSES A TTORNEYZ M. F. GEER 6L R. C. LEAKE.

ssuacnvn SIGNALING nnvxcz.

APPLICATION FXLED DECB. 1910. 1,1 18,120. Patented Nov. 24. 1914.

6 SHEET8--SHEET 2.

M. P. GEBR- & R. O. LEAKE.

SELECTIVE SIGNALING DEVICE.

APPLICATIAON FILED 0130.13.1910.

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Patented Nov. 24. 1914.

5" VIM/6124 nvvsu oxs BY 4 Z.

ATTORNEY.

VI TNE SSE S 1.} 7

M. F. GEER & R. C. LEAKE.

SELECTIVE SIGNALING DEVICE.

APPLICATION FILED nc.s.191o'.

Patented Nov. 24, 1914 6 SHEETS-BHEBT 4.

INVENTORJ:

ATTORNEY.

HITNESSES:

M. P. GEER & R. c. LEAKEI.

S ELECTIVE SIGNALING DEVICE.

APPLICATION TILED DBC.8.1910.

Am m 48 R Owo w m Nm d v! we H M. P. GEBR & R. C. LBAKE.

SELECTIVE SIGNALING DEVICE.

APPLICATION FILED DEC. 8. 1910.

1,118,120, Patented Nov. 24, 1914.

- 6 SHEETSSHEET 6.

.48 M /A\\\\\\/I WITNESSES 6 ngggons I M44. 7. m

I BY W ATTORNEY UNITED STATES PATENT OFFICE.-

MAURICE F. GEEB, AND RICHARD C. LEAKE, OF ROCHESTER, NEW YORK, ASSIGNORS TO GENERAL RAILWAY SIGNAL COMPANY, OF GATES, NEW YORK, A CORPORA- ."1ION OF NEYN YORK.

SELECTIVE SIGNALING DEVICE.

Specification of Letters Patent.

Patented Nov.24, 1914.

Application filed December 8, 1910. Serial No. 596,252.

State of New York, have invented a new and useful Selective Signaling Device, of

which the following is a speci cation.

This-invention relates to that class of devices which an operator at a central point may actuate at remote points by the same impulses of electricity to cause one and one only of a number of the devices at-the re mote points to be so actuated asto cause the operation of any other apparatus at the same station. Such-devices are in the electrical art called selective devices, and this invention therefore relates to a selective device, as the operator at the central station by its use can select that station at which he desires a certain operation to take place, such as the ringing of a bell, the moving of a semaphore, or the operation of any one of the countless devices which may be actuated by the intermediary of electricity.

The primary object of this invention is to produce a device which is absolutely reliable, as in devices ofthis character the prime requisite is certainty of action, and in this device certainty of action has been unquestionably obtained.

A furtherobject of the invention is to obtain certainty of action \vith'a minimum of parts, not only a minimum of moving parts-but also a minimum of fixed parts,

for in a device of this character it is a desideratum that the parts should be few and simple, for the structure after being once installed must be maintained in its work from year to year by rather unskilled hands. so that the fewer the parts and the simpler they are formed the less liability there is for the device to require skilled attention.

A further object of the invention is the production of a device of the character described which shall occupy a very small space and be readily accessible, for all of its parts should be readily accessible and easily adjustable, so that in case the device does need attention it may be attended to with facility and despatch and the defect, if any, which may have caused it to be inspected and adjusted can be very readily determined.

A further object of the invention is to assemble in a unitary structure devices which have heretotore been separate and distinct mechanisms, for by so doing economy in material, economy in space and economy in time of inspection are attained, essential requisites in a device of this character of which there may be many under the care and supervision of one inspector. Heretofore in selective signaling systems the selectivedevice has been constructed separate and distinct from the device directly actuated by current from the line wires, but the selective mechanism is this device is actuated directly by the means energized from the line wires and forms an integral part of it.

A further object of the invention is to so surround the vital actuating parts, which in a device of this character mustbe small and light and therefore easily disarranged by any foreign action, by such a combination of stops and guarding mechanisms as will prevent the actuating of ,the parts to such an extent as to throw them out ofcorrect operating position by any accidental blow given to the device, or by an accidental impulse of electricity getting into the device which is more powerful than that ordinarily used to operate it.

A further object of the invention is to secure economy in the consumption of current needed to operate a device of this character, for by so doing we are enabled to operate many more of the devices with a given current consumption than we otherwise would be able, or we can'operate a device at a greater distance from the central station. than we otherwise would be able, both of which results are an important consideration in practical working.

A further object of the invention is to so construct a device of the character de- H'll ltfll that. it may be operated by the use of only two line wires, which two line wires may also be used for the transmission of telephonic messages without interfering in any manner with the operation of the selectivc. device and without an interference by the selective device with the operation of the telephones. This object to be attained without the employment or intervention of complicated. cumbersome and confusing telephone jacks and plugs and cords.

further object of the invention is the production of a substantial device of the character stated which may be manufactured, installed and maintained at an extremely low cost.

A further object of the invention is to so constrcct a device of .the character'stated that not only may the selective device be operated from energy supplied at the central station but the apparatus at the remote from the central station.

stationset in operation by the selective device may be operated' by energy derived her objects and advantages will appear in the following specification and the novel "several views,'in-which:

. 1 Figure 1 1s a frontelevation of the assembled device with the inclosing cover removed. Fig. 2 is a top view of the asi sembled. device with the inclosing cover removed. Fig. 3 is a side elevation of the assembled device with'the inclosing cover in section and a lower corner of the base slightlybroken away in order to show the form of joint between the cover and base. Fig. 4 is aside elevational view from the right handside of Fig. 2 with the base in tail view of a connection; Fig. 12 is a fragmentary cross sectional view on the linesection with the inclosing cover removed and with one of the coils removed, and certain of thefront mounting pieces in section. Fig. 5"is a fragmentary front elevation of the intefinal .mechanism. Fig. 6 is a fragmentary front elevation showing the internal mechanism in the position assumed when a combination is set up and a localcontact closed. ig. 7 is a back elevation. Fig. 8 is a detail showing the construction and mounting of the local contacts. Fig. 9 is a detail plan view of part of the mechanism shown by Fig. 2. Fig. 10, is a view of the parts of the'plane of section A-B, Fig. 9, a few parts being shown in elevation to render the view more clear. Fig. 11 is a de- CD of Fig. 5. Figs. 13 and 14 are front and side elevational detail views of a part. Figs. 15 and 16 are side and front elevational detail views respectively of a part. Fig. 17 is a fragmentary view looking in the direction of the arrow m, Fig. 2. Fig. 18 is a side elevational detail view of a part. Fig. 19 is a cross sectional view of the parts shown in Fig. .18. Figs. 20 and 21 are an end and a side view respectively of a part. Figs. 22 and 23 are a side and an end view respectively of a part. Fig. 24 is a plan view ofthe parts shown in F i'g. 17, but in a different operative relation. v Figs. and 26 are views of ihe'parts shown in Fig. 17 but in a different-operative relation. Fig. 27 is a fragmentary side elevation looking in the direction of the arrow :1 Fig. 2. Fig. 28 is a detail view of a part. Fig. '29 is a cross sectional view of the part shown in Fig. 28.

0onstructi0n.-1 designates the base which should be made of a very light but extremely strong non-magnetic 'material. Around the base extends thefiahge -1, which forms a'chamher for the noninductire resistance 2, through holes in the base are placed the insulating bushings 3 through which the wires leading to the 10- cal contacts and line wires are passed. 1 designates a projection from the base having a hole 1 therethrough; l designates a flange which completely encircles the front face of the base and which forms a guide for the cover 4; 1 designates holes through the flange 1 adapted to receive pins 4 fastened to the cover andtogether withthe lug and the projection 1 to form a means for lockingthe cover to the base to prevent access to the internal'me'chanism as the arm of a padlock may beinserted through the hole 1, thereby preventing any but the proper parties from gaining access to the interior. The cover 4 may have a glass 10? set in its front face, so that a view-o!" the interior mechanism may be had without removing the cover; '106 designates a rubbcr gasket placed around the inside of the flange 1 for the cover to bear against and thus prevent the entrance of dust into the inside of the case; 99 designates holes through the base by which the device may be fastened upright by means of screws to a wall; 1 designates pillars extending forward from the base by which the internal mechanism is supported. To the top pillars 1 is attached the mounting bar 5 by means of the spacer posts 101 whose inner ends are screw threaded.

To the mounting bar 5 is attached by means of screws 8, one shown in Fig. 2 and the-other in Fig. 12. the pole plate 9, which has therethrough two screw threaded holes through which extend the cores 10 best shown in Fig. 11, which are formed with a screw thread to engage the screw thread in the pole plate, and which have a slot 10" to receive a screw driver to turn them so that the position of the cores 10 in the pole plate 9 may be varied. 11 designates a lock-nut engaging the screw threads of the core in order to lock them in adjusted pOSL tion. To the bottomcf the cores are attached the collars 12 for increasing the polar surfaces and for holding the insulating disks 13, which disks hold the energizing coils 14 on the cores. 15 designates screws for causing the pole plate to bidd the core ma-gnet 17 which bears at its lower end the knife edge bearing plate 18, fastened to it by means of the'screw 100 and having the knife edge bearing 18 and the hole 18 therethrough; 19 designates the head of an adjusting screw which passes through a screw threaded hole in the pole plate and bears a lockinut 20 forholding it in adjustedposition; 102 designates a cylindrical rod passing through the adjusting 4 screw 19 which' is bored out to receive it,

the rod being-headed at theupper end to prevent it from passing through the screw, this rod acts as a swivel and does not rotate when the screw 19 is turned to adjust it longitudinally;- 21 designates a tension spring interposed between the swivel 102 and t e centering rod 22, which is fastened to the armature '23,;and by the tension of the spring 21 thea'rmature is maintained in central position with its ends at equal distances from the ends of the cores. the armature 23 has a depression 23 best shown in Figs. 5 and 6 formed in its center to bear on-the knife edge 18.

As best shown in Fig.12 24 designates w an arm attached rigidly to the armature 23 by screws 101, and extending upwardly and bearing at its top-end a post as shown in Fig. 10, fastenedt'o it hymcans of a screw thread on the end of the postand a nut 26;

2 designates a shoulder on the post 25 between which and the nut 26 the arm 24 is clamped; 28 designates a washer on the post 25 interposed between the shoulder 27 and one arm of a driving pawl 29. which has a hole therethrough. through which the post 25 extends; 30 designates a spacer interposed between. the arm 29 of the driving pawl 29 and the arm 29 of the driving pawl. 29; 31 designates a spacing washer between the arm 2-9 and the arm 32 of the driving pawl 32; 33 designates a spacing washer between the arm 32 and the arm 32- of the driving pawl 32: 34 designates a washer between the arm 32" and the cotter pin 35 inserted in a hole in the end of the post 25, the cotter pin holding the washers and spacers and driving pawls in place upon the post 25, but. allowing a free movement of the-dri\-'ing pawls about the axis of the post 25.

As best shown inFigs. 5 and 9. 3G consti' tutes a means for preventing the driving pawl 29 from dropping too low. and consists of a pin in the center of a hub 36.

which bears on its other side at a point not Y. in line with the pin 36 apm 36 which is screw threaded and passes through the mounting bar 5 and. is clamped thereto by means of the nut 37; 36 designates holes drilled radially-through the hub for the insertion of an adjusting pin; A designates a stop mounted on sector A to prevent driving pawl 32 from flying up over the other side of the center pin 25.

As best shown in Fig.10 38 designates a shaft which is screw threaded on its inner end and bears a collar 38, and which passes through the mounting bar 5 and is clamped thereto by means of the nut'39'; i0 designates a bushing placed on the shaft 38 and free to rotate thereon, which has rigidly attached thereto the sector B and has mounted thereon a contact arm 41 shown in Figs. 13 and 11' capable of rotatable adjustment thereon, but when adjusted is held-in theadjusted position by means of the screw 42 passing through the'twobifurcated ends of the arm 41, thus binding it to the bushing 10 so that the sector B will rotate with the arm 41. There is also rotatably mounted upon the shaft 38 the bushing .43 which is rigidly attached to the sector A and bears the arm 44 shown in Figs. 15 and 16 rotatably adjustable theroninthe same way that bushing bears contact arm 41", 47 designates a screw in the end of the shaft 38 designed to keep the parts which are revoluhl maintained upon shaft 38 from longitudinal movement.

designates a pin best shown in Figs. 5 and 9 which acts as a stop to prevent the sector B from rotating backwardly beyond normal position by contacting with theextreme outer end of said sector. This stop exactly as stop 36 is clamped on the mounting bar 5 and is adjustable in the same manner.

As best shown in Fig. 9 48 designates a front mounting bar which is clamped by means of screws 6 and 7 and spacer posts 101 to pillars 1;- 46 designates 'a stop fastened to the front bar 48 and is adapted to contact with the tail end A of the sector A to prevent it from rotating haclcwardlv beyond normal position.

Sectors A and B have teeth as 103 cut in their periphery as shown in Fig. 5 designed to contact with the edge 29 of the driving pawl 2 and edge .32 of driving pawl 32 and be rotated thereby step by step about the shaft 38. z

As best shown in Figs. '5' find 1x the driving pawl 32 has formed on its end the downwardly curved extending arm 32 which is adapted to contact with the release dog HI to throw it out of engagement with the holding pawl 50. which holding pawl 50 is contacted by the downwardly curved extending arm 32 to throw it in Contact with the sector A. As best shown Fig. 5, cl riv ing pawl 29 has the downwar ly curved extending arm 29 which is adapted to contact I with the holding pawl 51 and throw it into engagement with the sector B.

The holding pawl shown in detail in Figs 20 and 21 is mounted upon a pin 52 as shown in Figs. 18 and 19 and the holding pawl 51 best shown in Figs. 22 and 23 is mounted upon a pin 53 best shown in Figs. 28 and 29; h screwed upon the outer end-"of thepiii' 52 after it passes through -the v tront v amountingbar 48.4 Between the front mounting bar 48 and'the' pawl :30 the buShiingLIgQS-which bears a pin best-"shown in'FigsJ 18 and 19,- which coacting with the pin 50 on hold .ing pawl 50pr'eirents the holding pawl from fiyingvback too ffa'rl 'i The pin 52' has'bn its inner end next the head-.52 a circular en-V largeinent of measured lengthwise of the pin slightlyi gii orethan the thiekne$ of the. holding pawl 50,- so that when the pin hearing the holding pawl ja'n'd the bushing is firmlyfclajifipe'd to the fro'nt; mounting bar 48 the-holdingpawl- ,will 1' b move about the airisi'oftheip A holding pawl 51:.iis best shown-in -28 and 29 is borne iiilike manner K and is lield jii oi i "fiying baclr too far til pin 56; The' position of the pins 56 and 55 can of course 'bejradil adj usted by loosen irelease arm hole in a right aiiglddektiension of plunger .arm 44 asshown in Fig l0 in such a manner as to come-opposite the end of the extension G2 on the contact 'a'r m 41 wheira proper combination is set up; -19 isa release dog pivoted on a pin 63 passing through there lease arm and adapted to throw holding pawl 50 out of engagement 'itl'i tlle teeth of sector A, by engaging in the notch 50. The release arm 60 has a tooth 6O which lies in the path of arnpil at times, but normally l elow 'it as best'shown in fragmentary View Fig. 27, due to 'the factthat arm 32' rests upon the tail end of sector B. which end lies in a plane above the plane of the tooth 60. The holding pawl 51 is adaptedtobe thrown 'out of engagementwith the teeth 103 of 54: designatesa. nut which is 4 :65; which is wound about the pin 64: and has .g orle end; 1 bearing" fo'n' tliegex'tension arm 62, "and the otherend on th'e'contact arm41. As bestlsl owniinjFigs; 15. 1 and 12 66 fdsignates-fa"'supporting' bar, one end of; "which is fastened to the pillar 1 on one side "arniature 23.

when released from engagement with the holding pawl 51.

As best shown in Figs. 1 and 10 the extension arm 62 is borne on the contact arm 41 by means of a. pin 64, which passes through the two arms 41. and 11 on the lower end of tliecontact arm, and is-held outwardly b'y means fgof the torsion spring 'of thebase by means of the screw 67, and the other end of which is similarly supportborne by the bar As best sh iii in Figs-'l, 3j fandj8ithefitwo lower pillars li' ifro n the bals'e a-lsosupport by means of the hi "d riibber. 69wh1ch is ffastcnedlto' the:pillars,bjfgztbe iscrews'7O and 17 l the contact strips- 72,

79, so, s1;-.'is2-" and 83.1which Contact: "strips are so forinedjand .soarranged that they fornipairs; that is, 7'2 and 73 are "adapted; to be contacted by pressure exerted on spring 72, .as are-l kewise springs 74 and'ifi,

ed upon the pillar 1 uponjhc other side of the base; 68 designates a compression spring b aring against the eai-h of the springs being attached to binding posts as 84- to which a wire may be cdn netted 8a designates a. retaining arm which? together with the retaining arm Siion' the other. sideof the dei'im carries a retain-v to near against and to hold the springs 72,

74. 7a. 7a, ward position. (951 theother sideeof the. in" dating piece (39 are-retaining metallic S9, and 91 'to thetwo outer of which',' namely. 88. 91. are connected the two line '81 and S3 in their proper in- ".05 strips S7, which are on the inside of and wires through which the current travels to 4 operate the device. The current travels when going in one direction from bindin post 88 by means of the \'-.'!!'0 92- to an through the. coil iton'the right hand side,'

leaving the coil by the wire 93, which is connected with binding post 89; from hence it passes to and through the noninductire resistance 2 shown in Fig. 7, and from hence. to binding post 90, passing from there by means of the'wire 9-2 to and through the coil ll on the left hand side of the 'derice leaving the said coil by the wire 95 binding post 91 and the other line wire. A

connection 96 is shown in Fig. 7 from the? either side of block 108 which are bent in the manner shown so that their ends are close together but not in contact. A pin 113 is fastened to sector A- so that it contacts with and depresses spring 111 when sector A has been moved sufliciently in one direction by driving pawl 32,. causing spring 111 to contact with spring 112.

Operation-If 'a wire conveying positive current be connected to the binding post 88 and the return path to the source of current.

be completed by a wire connected to the binding post 91,the two coils 11-14 will be energized, thereby magnetizing the cores 10 and so oscillating the armature 23 upon the knife edge 18 sothat the right hand end of the armature as shown in Fig. 6 will be drawn up to the rigl'it hand core 10 as the permanent magnet 17 so magnetizes the ar- 1 mature 23 that an opposite pole is created on the right hand end of armature 23 from that created by the coils 11-14 on the right hand core 10L The oscillating of the armature 22 causes the upper end of arm 24; to

- move to the left carrying with it driving -'-'fastcned to the armature 23.

pawl 32, which by means of the edge 32 engages a: tooth of sector A and causes the sector A to rotate in a direction counter clockwise-about the shaft 38 as a pivot at the same time downwardly extending loop 32 engages the end of the release dog 49 as shown in Fig. 17, relasing it from engagement with the hotch'f-O of the holding pawl- 50 and the downwardly extending loop 32 engages with the upper end of the holding pawl 50, forcing it into engagement with'a tooth on the sector A. 'hcn the current ceases the sector A remains in its moved position, being held therein by the action.

of the holding pawl 50, but thedriving pawl and the arm 21 and the armature 23 are drawn back to their normal position with both endsiof the armature atequal distances from the lower ends of both cores by virtue of the .tension of the spring 21 exerted upon the centering rod 22 which is A second impulse advances the sector another tooth and it could be so advanced step by step by successive impulses to the limit of its movement. 'hen the driving pawl 32 is returned to normal position after actuating sector A, the releasewlog 4) falls upon the top of the tooth 50? as shown in Fig; 25 as the holdiug'pawl was moved folward into engagement with the teeth of sector A by sequently, the holding pawl is not moved from in engagement with sector A.

When the sector A rotates about the shaft 38 as it is rigidly connected to bushing '43, it carries said bushing with it, and also carries with it the arm 44 which istightly clamped to saidbushing. If the combination which it is desired to set up on the particular machine is 3 steps on the A sector and 5 steps on the B sector, the A sector would be advanced 3 teeth carryin with it the arm 4.4 to such a point as woul place it in operative position when the other parts of the mechanism are suitably actuated. After the A sector has been moved the requisite numberof steps the-current entering the coils 14-14 is reversed in direction so that positive current enters by the binding post 91 instead of by the binding post 88,.

a it. The edge 29 of the driving pawl 29 will engage with a tooth on'the sector B and cause the sector to rotate clock-wise about the shaft 38, and at the same time driving pawl 29 by means of the downwardly extending loop 29 will cause the holding pawl 51 to engage with a tooth on the sector B and thus-hold it from returning to normal position when the driving'pawl releases it. Successive impulses of positive current entering by the binding post 91 cause a step by step rotation of the sector B about the shaft 38, which movement is'transmitted to the contact arm 11 by virtue of the fact that sector B is rigidly connected with bushing 40 and contact arm 41 is firmly clamped about the bushing 40. If the combination of the particular device, as has been hereinbefore assumed, should be three steps on sector A and five steps on sector B, then at the termination of the movement the sector 13,. caused by the five successive impulses of positive current entering at the binding post 91{ the contact arm 41, bearing the extension contact piece ()2, will ha ve been moved to such a position that the right a gled QXtQIlSlOH on the extension contact piece 62 will be directly under the plunger which it was unable to do when it was previousl actuated, for the arm 32 rested upon the tail end of sector B as shown in Fig. 27, which was in a plane higher than the plane of the teeth 60 of therelease arm 60, but as sector B'has now been rotated a certain expawl 32 to reciprocate in a lower plane so that the arm upon being moved to the left, is enabled to engage with the tooth (O of the release arnrGO, causing the release arm drops.

all

arm to rotate about pin 58 as shown in Fig. 6., so that the plunger 61 attached to its end will be depressed, which causes in turn the depression of the right angled extension of the extension contact piece G2-against the action of the spring 65 and causes the insulating bone tip 97 to engage with an outer contact strip, such as 79, causing it to move inwardly and make contact with an inner contact-stri p, such as 78, thereby forming a path for alternating current which may be impressed upon the two line wires by connecting both line wires with one pole of a source, so thatthe aiternating current can then pass from the binding posts 88 and 91 to and through both coils 14-14 passing to binding posts 89 and 90,:1nd from-hence by means of the wires 104 and 105 passes to and through the non-inductive resistance 2, leaving at a central point by means of the wire 96, passing to a contact strip 78 and if a wireis connected to contact strip 79, pass to and through any electrically operated device, thereby causing its operation, returning to the source of alternating current at the central station by a wire connected between the other side of the electricallyoperated device to the ground.

When driving pawl 32 engages release arm 60, thepart 32 does not engage release dog 49, as the driving pawl 32 is raised .by release arm (30 as it is reciprocated by arm 24, consequently release dog 49 engages notch 50 ready to push holding pawl out of engagement with sector A when the release As long as the positive impulse of electricity entering by the binding post 88 last mentioned is maintained the release arm (90 is maintained in its operative position plunger 61 is helddepressed and contacts 78 and T9 are maintained in position, so that the clectricall y operated device, whatever it may he, at the station where the selective device is, remains energized. but as soon as the current ceases the armature 25, returns by virtue of the spring 1-1 and the centering rod to its central position carrying with it the driving pawl 32, which, of course, allows the release arm 60 to fall to its normal position, but in so doing the release arm (30 through 'the release dog 49 carried thereby (jzHIMr the pa l 50 as shown in Fig. JG. to l'( moved out of hohling posi tion which action is aided by spring 98 bean ing down upon it and causes by its outward push the holding pawl -0 to disengage 1:- tooth on the sector A, with which it was in engagement, thereby allowing sector A to fallto normal position, being aided thereby by the lead A fastened thereto. hen the sector A has almost reached normal position the tail A. contacts with the pin 51" causing the holding pawl 51 to move outthe device, that is to say, arm 41 may placed upon bushin teeth in the sector lS must be advanced in order to bring the arm 41 into such a position that any number of teeth must be advanced on the sector A in order to bring the 49- that any number of arm 44 on the bushing 43 into such a position that the plunger 61, and the right an-"p gled extension on the extension contact'piece.

62 will be in alinement at the-moment the release arm 60 is actuated by dog 32,, ,It will thus be seen that by using suitable 'ciimbin tions, any number of open circuits maybe: closed at a distant station, one at a time, by

an operator at a remote point.

In a great many cases it,1s necessary to call all of the remote stations at one time either to deliver a general order or for test ing purposes, and by the use of this selector it may be done. If the operator at the central station desires to call all? remote sta tions he sends out such a number of impulses of the proper polarity aswill move sector A around farther than it would be movcd by the impulses of any combination used to op -j eratc the selectors for individual calls whereupon pin 113 will press springs 111 and 112 together and so complete a. local circuit con} nected therewith.

\Ve wish it to be understood that we do not desire to be limited to the exact details of construction shown and described, for obvious modifications will occur to a person skilled in the art.

Having particularly described the construerion of one embodiment of our invention and explained the operation andprinciple thereof, what we claim as new and de sire to protect by Letters Patent is 1. In a. selective signaling device, in comhination, magnetizing coils, cores within the coils. an armature capable of oscillation, an arm attached to the armature, driving pawls carried by the arm, an electric contact, a plu rality of sectors driven by the driving pawls, and means governed by the sectors for cooperating to close the electric contact.

In a selective signaling device. toothed sectors, arms connected therewith, a plunger guided by one arm, a spring pressed pivoted u tion on the other arm, pairsof contacts lying in line with the plung-.,-r and extension when the plunger and extension are in oper- .3. In a selective signaling device, a three.

position-armature, an arm carried by the armature, driving pawls carriedby the arm,

toothed sectors actuated by the driving pawls, arms moved by the sectors, contacts closed by the cocpeiation of the arms.

4. In a selectin device, moved, teeth on said part, means for moving said part, a pawl pivoted below its center of gravity for holding the said part in moved position, a finger actuated by said means to move the pawl positively into engagement with the teeth on the said part, said pawl remaining in engagement by reason of gravity. j i

5. In a selecting device, a polarized armature means for oscillating'the armature, two

I open circuits, means actuated by the arma ture to close one of the circluts'by upward movements of both ends of the armature.

above normal, upward movements of one end only of the armature above normal closing the other circuit.

6. In a selector, a plurality of sectors,

-means to movesaid sectors,'a plunger movable in unison with one of said sectors, apivoted lever movable in unison with another of said sectors, said plunger and lever adapted to be brought by a predetermined movement of both said sectors into a position wherein they may eoiiperate, and normally separated metallic members brought into contact by the coii'peration of said plunger and lever. a 7. In a selector, a plurality of movable members, means including a plurality of drivers to move said members into a position wherein they may mechanically cooperate, normally separated metallic members brbught into contact when -:aid members cooperate, means operated by one 'of said drivers to cause said first mentioned members to coiiperate and thus cause said normally separated metallic members to touch each other.

8. In a selector, a plurality of movable members, means including a plurality of drivers to move said members into a position wherein they may roiiperate. me: o pcrated by one of said drivers to 0111252 said mcnfers to coiiperate, means to utileze such cooperation to cause an electrical change.

v9, In an electrically operated elector, two sectors, magnetizing coils, cores wi hin the coils, an armature governed by the cores, a driving pawl actuated by the armature for moving one of the sectors by a flow of ("loctricity in one direction. means for holding the sector in the moved position, another driving pawl actuated by the armature for moving the other sector by a flow of eleca part to be tricity in the other direction, means for holding the last mentioned sector in the moved position, normally se arated metallic contacts, and means actuate by the driving pawl operated by a flow of electricity in the first mentioned direction and governed by the extent of movement of both said sectors to cause said metallic contacts to touch each other.

10. In an electrically operated selector,

two sectors, magnetizing coils, cores within the coils, an armaturegovcrned by the cores, :1 driving pawl actuated bythe armature for moving one of the sectors by a flow of electricity in one direction,

said sector in the moved position, means attached to the driving pawl for moving said first mentioned means-into position to hold said sector in moved position, a second means normally inoperative for holding driving pawl actuated by the armature for moving the other sector by a flow of elec' trieity in the other direction, means nor- 1|'z;-.,.'-. inoperative for holding said last mentioned sector in the moved position,

means attached to said second. mentioned and mums actuated by the driving pawl operated by a. flow of electricity in the first mentioned direction and governed by the extent of movement of both said secters to cause said metallic contacts to touch each other.

11. In an electrically operated selector, two sectors, magnetizing coils, cores Within the coils, an armature governed by the cores, a driving pawl actuated by the armature for moving one of the sectors by a flow of electricity in one direction, means normally inoperative for holding said sector in the moved position, means governed by said driving pawl for moving said first mentioned means into position to hold said sector in moved position, a second driving pawl actuated by the armature for moving the other sector by a flow of electricity in ti..- other direction, means normally inoperative for holding said last mentioned sector in the moved position, means governed by said second mentioned driving pawl for moving said third mentioned means into a position to hold said last mentioned sector in the moved position. normally separated metallic contacts, and means actuated by the driving pawl operated by a flow of electricity in the first memioned direction and governed by the extent of movement of both said sectors to cause said metallic con tacts to touch each other, and means positioned by said last mentioned means to cause all parts to return to original position when the last. mentioned flow of electricity teeth of one of the sectors and another of the driving pawls is adapted to engage the teeth of another of the sectors, means to oscillate the armature thereby oscillating the driving pawls and thereby oscillating the sectors, means to hold the sectors in the oscillated position, a plunger positioned by the movement of one of the sectors, a pivoted lever positioned by the movement of another of the sectors, and means actuated by one of said driving pawls for causing the plunger to oscillate the lever and for causing all parts to return to initial position, and contacts closed by the oscillation of the lever.

13. In a selective signaling device, in combination: an armature; means to oscillate the armature; driving pawls oscillated by the armature; a circuit controller; a

plurality of sectors driven by the pawls;

means positioned by the sectors and actuated by one of the driving pawls for actuating the circuit controller.

14. In a'selective signaling device, toothed sectors, arms connected therewith, a plunger guided by one arm, a spring pressed pivoted extension on the other arm, a circuit con trollcr lying in a plane with the plunger and extension when the plunger and extension are in operative position, and means to operate the plunger to move the pivoted extension and actuate the circuit controller.

16. In a selective signaling device, in

combination, magnetizing coils, cores within the coils, an armature capable of oscillation, driving pawls actuated by the armature,'an electric contact, a plurality of sectors driven by the pawls, and means governed by a conjoint action of the sectors to close the elec tric contact.

MAURICE F.- GEER. RICHARD e. LEAKE.

\Vitnesses HENRIETTA VOSBUIIGH, \VM. R. GLAVIN. 

